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-rwxr-xr-xtests/functest/odl-sfc/sfc.py453
1 files changed, 52 insertions, 401 deletions
diff --git a/tests/functest/odl-sfc/sfc.py b/tests/functest/odl-sfc/sfc.py
index 556558da..78d11c5a 100755
--- a/tests/functest/odl-sfc/sfc.py
+++ b/tests/functest/odl-sfc/sfc.py
@@ -6,11 +6,8 @@ import time
import functest.utils.functest_logger as ft_logger
import functest.utils.functest_utils as ft_utils
import functest.utils.openstack_utils as os_utils
-import re
-import json
-import SSHUtils as ssh_utils
-import ovs_utils
-import thread
+import threading
+import utils as test_utils
parser = argparse.ArgumentParser()
@@ -34,7 +31,7 @@ IMAGE_FILENAME = "sf_nsh_colorado.qcow2"
IMAGE_FORMAT = "qcow2"
IMAGE_DIR = "/home/opnfv/functest/data"
IMAGE_PATH = os.path.join(IMAGE_DIR, IMAGE_FILENAME)
-IMAGE_URL = "http://artifacts.opnfv.org/sfc/demo/" + IMAGE_FILENAME
+URL = "http://artifacts.opnfv.org/sfc/demo"
# NEUTRON Private Network parameters
NET_NAME = "example-net"
@@ -55,313 +52,6 @@ PROXY = {
'password': 'r00tme'
}
-# run given command locally and return commands output if success
-
-
-def run_cmd(cmd, wdir=None, ignore_stderr=False, ignore_no_output=True):
- pipe = subprocess.Popen(cmd, shell=True,
- stdin=subprocess.PIPE,
- stdout=subprocess.PIPE,
- stderr=subprocess.PIPE, cwd=wdir)
-
- (output, errors) = pipe.communicate()
- if output:
- output = output.strip()
- if pipe.returncode < 0:
- logger.error(errors)
- return False
- if errors:
- logger.error(errors)
- if ignore_stderr:
- return True
- else:
- return False
-
- if ignore_no_output:
- if not output:
- return True
-
- return output
-
-# run given command on OpenStack controller
-
-
-def run_cmd_on_cntlr(cmd):
- ip_cntlrs = get_openstack_node_ips("controller")
- if not ip_cntlrs:
- return None
-
- ssh_cmd = "ssh %s %s %s" % (ssh_options, ip_cntlrs[0], cmd)
- return run_cmd_on_fm(ssh_cmd)
-
-# run given command on OpenStack Compute node
-
-
-def run_cmd_on_compute(cmd):
- ip_computes = get_openstack_node_ips("compute")
- if not ip_computes:
- return None
-
- ssh_cmd = "ssh %s %s %s" % (ssh_options, ip_computes[0], cmd)
- return run_cmd_on_fm(ssh_cmd)
-
-# run given command on Fuel Master
-
-
-def run_cmd_on_fm(cmd, username="root", passwd="r00tme"):
- ip = os.environ.get("INSTALLER_IP")
- ssh_cmd = "sshpass -p %s ssh %s %s@%s %s" % (
- passwd, ssh_options, username, ip, cmd)
- return run_cmd(ssh_cmd)
-
-# run given command on Remote Machine, Can be VM
-
-
-def run_cmd_remote(ip, cmd, username="root", passwd="opnfv"):
- ssh_opt_append = "%s -o ConnectTimeout=50 " % ssh_options
- ssh_cmd = "sshpass -p %s ssh %s %s@%s %s" % (
- passwd, ssh_opt_append, username, ip, cmd)
- return run_cmd(ssh_cmd)
-
-# Get OpenStack Nodes IP Address
-
-
-def get_openstack_node_ips(role):
- fuel_env = os.environ.get("FUEL_ENV")
- if fuel_env is not None:
- cmd = "fuel2 node list -f json -e %s" % fuel_env
- else:
- cmd = "fuel2 node list -f json"
-
- nodes = run_cmd_on_fm(cmd)
- ips = []
- nodes = json.loads(nodes)
- for node in nodes:
- if role in node["roles"]:
- ips.append(node["ip"])
-
- return ips
-
-# Configures IPTABLES on OpenStack Controller
-
-
-def configure_iptables():
- iptable_cmds = ["iptables -P INPUT ACCEPT",
- "iptables -t nat -P INPUT ACCEPT",
- "iptables -A INPUT -m state \
- --state NEW,ESTABLISHED,RELATED -j ACCEPT"]
-
- for cmd in iptable_cmds:
- logger.info("Configuring %s on contoller" % cmd)
- run_cmd_on_cntlr(cmd)
-
- return
-
-
-def download_image():
- if not os.path.isfile(IMAGE_PATH):
- logger.info("Downloading image")
- ft_utils.download_url(IMAGE_URL, IMAGE_DIR)
-
- logger.info("Using old image")
- return
-
-
-def setup_glance(glance_client):
- image_id = os_utils.create_glance_image(glance_client,
- IMAGE_NAME,
- IMAGE_PATH,
- disk=IMAGE_FORMAT,
- container="bare",
- public=True)
-
- return image_id
-
-
-def setup_neutron(neutron_client):
- n_dict = os_utils.create_network_full(neutron_client,
- NET_NAME,
- SUBNET_NAME,
- ROUTER_NAME,
- SUBNET_CIDR)
- if not n_dict:
- logger.error("failed to create neutron network")
- sys.exit(-1)
-
- network_id = n_dict["net_id"]
- return network_id
-
-
-def setup_ingress_egress_secgroup(neutron_client, protocol,
- min_port=None, max_port=None):
- secgroups = os_utils.get_security_groups(neutron_client)
- for sg in secgroups:
- os_utils.create_secgroup_rule(neutron_client, sg['id'],
- 'ingress', protocol,
- port_range_min=min_port,
- port_range_max=max_port)
- os_utils.create_secgroup_rule(neutron_client, sg['id'],
- 'egress', protocol,
- port_range_min=min_port,
- port_range_max=max_port)
- return
-
-
-def setup_security_groups(neutron_client):
- sg_id = os_utils.create_security_group_full(neutron_client,
- SECGROUP_NAME, SECGROUP_DESCR)
- setup_ingress_egress_secgroup(neutron_client, "icmp")
- setup_ingress_egress_secgroup(neutron_client, "tcp", 22, 22)
- setup_ingress_egress_secgroup(neutron_client, "tcp", 80, 80)
- return sg_id
-
-
-def boot_instance(nova_client, name, flavor, image_id, network_id, sg_id):
- logger.info("Creating instance '%s'..." % name)
- logger.debug(
- "Configuration:\n name=%s \n flavor=%s \n image=%s \n "
- "network=%s \n" % (name, flavor, image_id, network_id))
-
- instance = os_utils.create_instance_and_wait_for_active(flavor,
- image_id,
- network_id,
- name)
-
- if instance is None:
- logger.error("Error while booting instance.")
- sys.exit(-1)
-
- instance_ip = instance.networks.get(NET_NAME)[0]
- logger.debug("Instance '%s' got private ip '%s'." %
- (name, instance_ip))
-
- logger.info("Adding '%s' to security group %s" % (name, SECGROUP_NAME))
- os_utils.add_secgroup_to_instance(nova_client, instance.id, sg_id)
-
- return instance_ip
-
-
-def ping(remote, pkt_cnt=1, iface=None, retries=100, timeout=None):
- ping_cmd = 'ping'
-
- if timeout:
- ping_cmd = ping_cmd + ' -w %s' % timeout
-
- grep_cmd = "grep -e 'packet loss' -e rtt"
-
- if iface is not None:
- ping_cmd = ping_cmd + ' -I %s' % iface
-
- ping_cmd = ping_cmd + ' -i 0 -c %d %s' % (pkt_cnt, remote)
- cmd = ping_cmd + '|' + grep_cmd
-
- while retries > 0:
- output = run_cmd(cmd)
- if not output:
- return False
-
- match = re.search('(\d*)% packet loss', output)
- if not match:
- return False
-
- packet_loss = int(match.group(1))
- if packet_loss == 0:
- return True
-
- retries = retries - 1
-
- return False
-
-
-def get_floating_ips(nova_client, neutron_client):
- ips = []
- instances = nova_client.servers.list(search_opts={'all_tenants': 1})
- for instance in instances:
- floatip_dic = os_utils.create_floating_ip(neutron_client)
- floatip = floatip_dic['fip_addr']
- instance.add_floating_ip(floatip)
- logger.info("Instance name and ip %s:%s " % (instance.name, floatip))
- logger.info("Waiting for instance %s:%s to come up" %
- (instance.name, floatip))
- if not ping(floatip):
- logger.info("Instance %s:%s didn't come up" %
- (instance.name, floatip))
- sys.exit(1)
-
- if instance.name == "server":
- logger.info("Server:%s is reachable" % floatip)
- server_ip = floatip
- elif instance.name == "client":
- logger.info("Client:%s is reachable" % floatip)
- client_ip = floatip
- else:
- logger.info("SF:%s is reachable" % floatip)
- ips.append(floatip)
-
- return server_ip, client_ip, ips[1], ips[0]
-
-# Start http server on a give machine, Can be VM
-
-
-def start_http_server(ip):
- cmd = "\'python -m SimpleHTTPServer 80"
- cmd = cmd + " > /dev/null 2>&1 &\'"
- return run_cmd_remote(ip, cmd)
-
-# Set firewall using vxlan_tool.py on a give machine, Can be VM
-
-
-def vxlan_firewall(sf, iface="eth0", port="22", block=True):
- cmd = "python vxlan_tool.py"
- cmd = cmd + " -i " + iface + " -d forward -v off"
- if block:
- cmd = "python vxlan_tool.py -i eth0 -d forward -v off -b " + port
-
- cmd = "sh -c 'cd /root;nohup " + cmd + " > /dev/null 2>&1 &'"
- run_cmd_remote(sf, cmd)
-
-# Run netcat on a give machine, Can be VM
-
-
-def netcat(s_ip, c_ip, port="80", timeout=5):
- cmd = "nc -zv "
- cmd = cmd + " -w %s %s %s" % (timeout, s_ip, port)
- cmd = cmd + " 2>&1"
- output = run_cmd_remote(c_ip, cmd)
- logger.info("%s" % output)
- return output
-
-
-def is_ssh_blocked(srv_prv_ip, client_ip):
- res = netcat(srv_prv_ip, client_ip, port="22")
- match = re.search("nc:.*timed out:.*", res, re.M)
- if match:
- return True
-
- return False
-
-
-def is_http_blocked(srv_prv_ip, client_ip):
- res = netcat(srv_prv_ip, client_ip, port="80")
- match = re.search(".* 80 port.* succeeded!", res, re.M)
- if match:
- return False
-
- return True
-
-
-def capture_err_logs(controller_clients, compute_clients, error):
- ovs_logger = ovs_utils.OVSLogger(
- os.path.join(os.getcwd(), 'ovs-logs'),
- FUNCTEST_RESULTS_DIR)
-
- timestamp = time.strftime("%Y%m%d-%H%M%S")
- ovs_logger.dump_ovs_logs(controller_clients,
- compute_clients,
- related_error=error,
- timestamp=timestamp)
- return
-
def update_json_results(name, result):
json_results.update({name: result})
@@ -371,66 +61,6 @@ def update_json_results(name, result):
return
-def get_ssh_clients(role):
- clients = []
- for ip in get_openstack_node_ips(role):
- s_client = ssh_utils.get_ssh_client(ip,
- 'root',
- proxy=PROXY)
- clients.append(s_client)
-
- return clients
-
-# Check SSH connectivity to VNFs
-
-
-def check_ssh(ips, retries=100):
- check = [False, False]
- logger.info("Checking SSH connectivity to the SFs with ips %s" % str(ips))
- while retries and not all(check):
- for index, ip in enumerate(ips):
- check[index] = run_cmd_remote(ip, "exit")
-
- if all(check):
- logger.info("SSH connectivity to the SFs established")
- return True
-
- time.sleep(3)
- retries -= 1
-
- return False
-
-# Measure the time it takes to update the classification rules
-
-
-def capture_time_log(compute_clients):
- ovs_logger = ovs_utils.OVSLogger(
- os.path.join(os.getcwd(), 'ovs-logs'),
- "test")
- i = 0
- first_RSP = ""
- start_time = time.time()
- while True:
- rsps = ovs_logger.ofctl_time_counter(compute_clients[0])
- if not i:
- if len(rsps) > 0:
- first_RSP = rsps[0]
- i = i + 1
- else:
- first_RSP = 0
- i = i + 1
- if (len(rsps) > 1):
- if(first_RSP != rsps[0]):
- if (rsps[0] == rsps[1]):
- stop_time = time.time()
- logger.info("classification rules updated")
- difference = stop_time - start_time
- logger.info("It took %s seconds" % difference)
- break
- time.sleep(1)
- return
-
-
def main():
installer_type = os.environ.get("INSTALLER_TYPE")
if installer_type != "fuel":
@@ -448,8 +78,8 @@ def main():
start_time = time.time()
status = "PASS"
- configure_iptables()
- download_image()
+ test_utils.configure_iptables()
+ test_utils.download_image(URL, IMAGE_PATH)
_, custom_flv_id = os_utils.get_or_create_flavor(
FLAVOR, 1500, 10, 1, public=True)
if not custom_flv_id:
@@ -460,97 +90,117 @@ def main():
neutron_client = os_utils.get_neutron_client()
nova_client = os_utils.get_nova_client()
- controller_clients = get_ssh_clients("controller")
- compute_clients = get_ssh_clients("compute")
+ controller_clients = test_utils.get_ssh_clients("controller", PROXY)
+ compute_clients = test_utils.get_ssh_clients("compute", PROXY)
- image_id = setup_glance(glance_client)
- network_id = setup_neutron(neutron_client)
- sg_id = setup_security_groups(neutron_client)
+ image_id = os_utils.create_glance_image(glance_client,
+ IMAGE_NAME,
+ IMAGE_PATH,
+ IMAGE_FORMAT,
+ public=True)
- boot_instance(
- nova_client, CLIENT, FLAVOR, image_id, network_id, sg_id)
- srv_prv_ip = boot_instance(
- nova_client, SERVER, FLAVOR, image_id, network_id, sg_id)
+ network_id = test_utils.setup_neutron(neutron_client,
+ NET_NAME,
+ SUBNET_NAME,
+ ROUTER_NAME,
+ SUBNET_CIDR)
+
+ sg_id = test_utils.create_security_groups(neutron_client,
+ SECGROUP_NAME,
+ SECGROUP_DESCR)
+
+ test_utils.create_instance(
+ nova_client, CLIENT, FLAVOR, image_id,
+ network_id, sg_id)
+ srv_instance = test_utils.create_instance(
+ nova_client, SERVER, FLAVOR, image_id,
+ network_id, sg_id)
+
+ srv_prv_ip = srv_instance.networks.get(NET_NAME)[0]
subprocess.call(TACKER_SCRIPT, shell=True)
# Start measuring the time it takes to implement the classification rules
+ t1 = threading.Thread(target=test_utils.capture_time_log,
+ args=(compute_clients,))
try:
- thread.start_new_thread(capture_time_log, (compute_clients,))
+ t1.start()
except Exception, e:
logger.error("Unable to start the thread that counts time %s" % e)
- server_ip, client_ip, sf1, sf2 = get_floating_ips(
+ server_ip, client_ip, sf1, sf2 = test_utils.get_floating_ips(
nova_client, neutron_client)
- if not check_ssh([sf1, sf2]):
+ if not test_utils.check_ssh([sf1, sf2]):
logger.error("Cannot establish SSH connection to the SFs")
sys.exit(1)
logger.info("Starting HTTP server on %s" % server_ip)
- if not start_http_server(server_ip):
+ if not test_utils.start_http_server(server_ip):
logger.error(
'\033[91mFailed to start HTTP server on %s\033[0m' % server_ip)
sys.exit(1)
logger.info("Starting HTTP firewall on %s" % sf2)
- vxlan_firewall(sf2, port="80")
+ test_utils.vxlan_firewall(sf2, port="80")
logger.info("Starting SSH firewall on %s" % sf1)
- vxlan_firewall(sf1, port="22")
+ test_utils.vxlan_firewall(sf1, port="22")
logger.info("Wait for ODL to update the classification rules in OVS")
- time.sleep(120)
+ t1.join()
logger.info("Test SSH")
- if is_ssh_blocked(srv_prv_ip, client_ip):
+ if test_utils.is_ssh_blocked(srv_prv_ip, client_ip):
logger.info('\033[92mTEST 1 [PASSED] ==> SSH BLOCKED\033[0m')
update_json_results("Test 1: SSH Blocked", "Passed")
else:
error = ('\033[91mTEST 1 [FAILED] ==> SSH NOT BLOCKED\033[0m')
logger.error(error)
- capture_err_logs(controller_clients, compute_clients, error)
+ test_utils.capture_err_logs(controller_clients, compute_clients, error)
update_json_results("Test 1: SSH Blocked", "Failed")
logger.info("Test HTTP")
- if not is_http_blocked(srv_prv_ip, client_ip):
+ if not test_utils.is_http_blocked(srv_prv_ip, client_ip):
logger.info('\033[92mTEST 2 [PASSED] ==> HTTP WORKS\033[0m')
update_json_results("Test 2: HTTP works", "Passed")
else:
error = ('\033[91mTEST 2 [FAILED] ==> HTTP BLOCKED\033[0m')
logger.error(error)
- capture_err_logs(controller_clients, compute_clients, error)
+ test_utils.capture_err_logs(controller_clients, compute_clients, error)
update_json_results("Test 2: HTTP works", "Failed")
logger.info("Changing the classification")
subprocess.call(TACKER_CHANGECLASSI, shell=True)
# Start measuring the time it takes to implement the classification rules
+ t2 = threading.Thread(target=test_utils.capture_time_log,
+ args=(compute_clients,))
try:
- thread.start_new_thread(capture_time_log, (compute_clients,))
+ t2.start()
except Exception, e:
logger.error("Unable to start the thread that counts time %s" % e)
logger.info("Wait for ODL to update the classification rules in OVS")
- time.sleep(100)
+ t2.join()
logger.info("Test HTTP")
- if is_http_blocked(srv_prv_ip, client_ip):
+ if test_utils.is_http_blocked(srv_prv_ip, client_ip):
logger.info('\033[92mTEST 3 [PASSED] ==> HTTP Blocked\033[0m')
update_json_results("Test 3: HTTP Blocked", "Passed")
else:
error = ('\033[91mTEST 3 [FAILED] ==> HTTP WORKS\033[0m')
logger.error(error)
- capture_err_logs(controller_clients, compute_clients, error)
+ test_utils.capture_err_logs(controller_clients, compute_clients, error)
update_json_results("Test 3: HTTP Blocked", "Failed")
logger.info("Test SSH")
- if not is_ssh_blocked(srv_prv_ip, client_ip):
+ if not test_utils.is_ssh_blocked(srv_prv_ip, client_ip):
logger.info('\033[92mTEST 4 [PASSED] ==> SSH Works\033[0m')
update_json_results("Test 4: SSH Works", "Passed")
else:
error = ('\033[91mTEST 4 [FAILED] ==> SSH BLOCKED\033[0m')
logger.error(error)
- capture_err_logs(controller_clients, compute_clients, error)
+ test_utils.capture_err_logs(controller_clients, compute_clients, error)
update_json_results("Test 4: SSH Works", "Failed")
if json_results["failures"]:
@@ -574,5 +224,6 @@ def main():
sys.exit(1)
+
if __name__ == '__main__':
main()